SE436687B - INJECTION DEVICE - Google Patents

Abstract

PCT No. PCT/SE82/00423 Sec. 371 Date Jul. 19, 1983 Sec. 102(e) Date Jul. 19, 1983 PCT Filed Dec. 13, 1982 PCT Pub. No. WO83/02062 PCT Pub. Date Jun. 23, 1983.Injection device for medical purposes, designed for injection by using a manual hypodermic syringe. It includes a barrel part which in one end has a syringe needle and in the other end a flange; a plunger part having a plunger displaceable in the barrel part, said plunger performing movements, enabling medicine to be sucked into and respectively injected from the barrel portion, and having a gripping part connected with the plunger by means of a plunger rod. The device has an opening in one end, through which the injection syringe can at least partly be introduced into a cavity, and an inner part which is provided with a holding device for the barrel part which is changeable between a releasing position and a holding position, in which the barrel portion is held against movements in its longitudinal direction relative to the inner part. A displacement device is provided for displacing the plunger part between a fore and a rear displacement position. The inner part is changeable between a rear position with the syringe needle positioned inside the opening and an advanced position with the syringe needle pushed outside the opening for insertion. The injection device includes an outer part, in which an electric motor is positioned and controlled by means of an electronic device. A transmission connects it to the displacement device for accomplishing its displacement movements in a sequence determined by the control device, for loading the injection syringe, as well as injection after insertion.

Description

7mß5 = 5 mechanism for displacing the piston part of the disposable syringe in two different positions, Figs. And 6 show a support device for the disposable syringe located at the top of the injection device in two different positions in a section along the line VI-VI in Fig. 1, fi g. 7 showing a section through the injection device along the line VIII-VIII in Fig. 1, showing a holding device for the syringe body of the disposable syringe. Fig. 9 shows diagrammatically with a block diagram an electronic guide included in the syringe Order, Fig. 10 shows with a partially broken view the injection device in a running position, before the disposable syringe is inserted, Fig. 11 shows the syringe under its charging torque and Fig. 12 shows the syringe during injection after insertion into a body tissue.

Figures 1 and 2 show the main structure of the injection device 1. This has at its upper end 2 an opening 3, through which a manual syringe 4 of the disposable syringe type can be inserted into a cavity 5 in the injection device. The unit syringe 4 is of standard type and substantially upgse built of a syringe body 6, which forms a cylinder part and which at its upper end has a syringe tip 7 and at its lower end a flange portion 8 in the form of two side-oriented flanges. The disposable syringe 4 further has a piston part 9 consisting of a? a piston 10, piston rod 11 and a gripping kit 12 located at the outer end of the piston rod, by means of which the piston 10 is displaceable inside the syringe body 4 for sucking in and expressing medical substances through the syringe tip 7. The syringe tip covers: 13. The injection device 1 is made up of three relatively displaceable main parts, namely an outer part 14, which forms a housing for the injection device, a relatively displaceable tubular intermediate part and a short piece inside the intermediate part, Lex 0.5-1 cm, displaceable inner part 16, in which the disposable syringe 4 is held in a manner to be described in more detail below. The housing 14 has a cylindrical bore designed as a geyser for the intermediate part 15, from which the intermediate part can be extracted gas to an extended position, which will also be described in more detail below. In housing 14, in addition to the intermediate part 15 and the inner part 16 with associated interior, an electric drive motor 17 and the main part of a transmission melianis 18 are also located to provide at least some of the working movements of the injection device. Furthermore, the housing encloses an electronic control device 19, arranged to control: the drive motor 17 according to certain predetermined sequences in a manner which will be described in more detail below. At the bottom of the housing 14 are accumulators 20 for supplying power to the drive motor 17 and the control device 19. Two adjusting knobs 21, 22 are further arranged on the housing for adjusting two different amounts of surface-to-surface mechanism to be injected. For the sake of simplicity, it is assumed in the present example that the medicine consists of insulin, of which for some patients two olnze varieties are taken, with which the disposable syringe is to be charged. The amount of insulin for one variety is thus set with one dial 21 and the amount of insulin for the other variety with the other dial 22. However, for the sake of simplicity, the description of the operation with reference to the drawings indicates a case where only one variety occurs, which is the most common situation. The steering wheel 22 intended for the second type can, for example, be set to a zero position. In the example shown, the electric motor consists of a direct current motor with a rotating output shaft 23, which extends parallel to the displacement directions of the intermediate part 15 and the inner part 16. Encapsulated in the DC motor 17 may be encapsulated a gear device (not shown) for downshifting the rotational movement. The transmission mechanism 18 consists of a gear 24 on the output shaft 23 and a gear 25, which is in gear engagement with the gear 24 and is fixedly mounted on one end of a threaded drive rod 26, which is rotatably mounted in the housing 14 and has in its opposite end a gear 27 of relatively large width. This gear 27 is in gear engagement with another gear 28, which is fixedly mounted on the end of a screw rod 29, which is threaded in the opposite direction as the drive rod 26. The screw rod 29 is rotatably mounted in the wall of the inner part 16. The drive rod 26 supports a drive lug 30 mounted thereon, which has a bore with internal threads and which is guided in a slot (not shown) in the inner part 16, whereby the drive lug 30 is arranged to travel along the drive rod 26, when it is caused to rotate. The drive lug 30 cooperates with an edge, for example the lower edge 31 of the intermediate tube, during its travel in the upward direction to lift it in order to displace the intermediate tube in the direction out of the housing 14 to an external position shown in Figs. 11 and 12, in which it is hooked. by means of a spring-loaded ratchet 32 pivotally mounted in the housing 14, which is caused to cooperate with a projection 33 on the intermediate tube. Thus, when the drive rod 26 is caused to rotate in the opposite direction, the drive lug moving in the downward direction, the intermediate tube 15 remains in its outer position.

The inner part 16 has a displacing device 34 for the gripping disc 12 of the piston part 9. The displacing device 34 is displaceable in a bore 35 in the inner part 16 between a front position, shown in Fig. 10, and a rear position, shown in Fig. 11. The displacement device 34 is provided with a substantially cylindrical body 36 in which two gripping members 37 are pivotally arranged, arranged to grip the gripping disc 12 and bring it into the displacement movement of the displacement device.

The structure of the displacement device 34 is best seen in Fig. 4 which shows a broken partial view of the injection device on an enlarged scale. Fig. 3 shows the displacement device 34 in its front end position, in which the gripping means 37 are in a releasing position, and in Fig. 4 in a slightly displaced position, in which the gripping means 37 are in a gripping position of the gripping disc 12, the position occupied by the gripping means during the displacement movement of the displacement device, except in the position shown in Fig. 3. The displacement movement of the displacement device is effected by means of rotation of the screw rod 29 by arranging thereon a nut 38 or more precisely a portion projecting from the cylindrical body with a bore which is internally threaded. The gripping means 37 are located in separate grooves 39 in the cylindrical body and are pivotally mounted therein by means of their respective shaft pins 40. The two grooves 39 are successively widened below the shaft pin 40 to allow the gripping means 37 to perform a pivoting = movement by the action of a tension spring 41, which connects the two gripping members: to each other below the cylindrical body. Because the inner part 1fs in its wall has two mutually opposite recesses 42, intended to receive the gripping means 37 in the front end position of the displacement device 34, the adjustment of the gripping means to the releasing position is enabled by the action of the tension spring fiš.

As shown in Figs. 3 and 4, the cylindrical body 36 is provided with a through-going shaft pin 43 with a flange 44 and a compression spring 45 which strives to. holding the pin 43 in the position shown in Fig. 3, thereby allowing the gripping disc 12 afçi; held relatively loosely in the holding position of the gripping means 37. At the lower end of the pin 43 a metal sleeve 47 is pressed against a stop 46 by means of a second compression spring 48, whereby closing of an electric circuit with a contact plate 49 by means of the metal sleeve 47 is allowed without this contact closure forming an end position of the pin 43, which thus a further piece is allowed to be pressed downwards, when contact is made between the metal sleeve 47 and the contact plate 49. This spreader forms the main switch for the control device 19 and the drive motor 14, * the switch is in the releasing position when the disposable syringe 4 is removed from the injection device , but to be in the closed position according to Fig. a; When the disposable syringe is in place with the gripping disc 12 depressing the pin 43. The injection device 1 further has an upper support device, which is located in the intermediate part 15 some distance below the opening 3. The support device is intended to form a support for the disposable syringe 4 at its upper end and thus s center this in the cavity 5 of the injection device and to automatically lift off the top cover 13, before the disposable syringe 4 is charged. The location of the support device is shown in Figures 1 and 11 and its construction is shown in Figures 5 and 6. The support device 50 is adjustable between a recessed position, as shown in FIG. 1 and 5 show a support position shown in Figs. 6, 11 and 12. In the advanced position the disposable syringe is allowed to be inserted in place in the injection device, while in the advanced support position the disposable syringe 4 is centered and receives support laterally. On the other hand, the disposable syringe is not held but is allowed to perform a displacement? movement relative to the support device, which is performed during the insertion step, the sauce: will be described in more detail below. The support device consists of two support elements Så, a1o7nss-s which are movable towards and from each other in grooves on the inside of the tubular intermediate part 15. The two support elements 51 have between them two compression springs 76, which strive to keep the support elements apart in their distant location. On the upper side of the support elements 51 are located two metal plates 52, which are intended to be included in an electrical circuit as the denominator will be described below. The support device also includes two elongate clamping members 53 in the form of electrically conductive rails, which are electrically insulated from the tubular intermediate part 15 and also other parts of the device. The two clamping means extend all the way down to the lower end of the injection device in the position shown in Fig. 1 and are fixedly connected to a clamping ring 54, which is displaceable inside the housing 14 relative to both the housing and the intermediate part 15 and the inner part 16. However, the clamping ring is coupled to the intermediate part 15 via two tension springs 55, one of which is shown in Fig. 1. This causes the clamping ring 54 to be accompanied by the outward movement of the intermediate part 15 during the main part of its travel distance, but is hooked by a hooking element 56 in the inner part 16 and remains in the position shown in Fig. 11, whereby the two tension springs 55 are caused to be tensioned during the last movement stretch of the intermediate part 15. Namely, as indicated in Fig. 11 with a partially broken portion of one clamping member 53, these have an abutment surface which is hooked against said member. In this case, the clamping means 53 stop in their movement of movement, whereby the intermediate part 15 and thus also the support elements 51 move relative to the clamping means. Because these are made at the top with their respective inclined guide surface 57, this relative movement means that the two support elements 51 are pressed against the action of their springs 52 inwards to the support position shown in Figs. 6 and 11, whereby the top cover 13 is pressed into upward and thereby lifted off and the disposable syringe 4 is stabilized and centered.

At the top of the inner part 16 a holding device 58 for the syringe body 6 is further arranged. The holding device 58 is formed by a tapered portion of the inner part 16, which forms support means 59, against which the unit syringe 4 is applied with its two lateral flanges in the flange portion 8. the holding device 58 is provided with a holding means in the form of a rotating ring 60, which is rotatably arranged in the inner part 16. The construction of the holding device 58 is best seen from the views in Figs. 7 and 8, where Fig. 7 shows the holding device in the releasing position. and Fig. 8 shows the holding device in holding position. The turntable 60 has a central recess 61, which substantially corresponds to the shape of the end of the syringe body 6 with the two flanges in the flange portion 8 and slightly exceeds the dimensions thereof. This allows the flanges to be placed on the support members 59 and end up at a level located below the turntable 60. This has at its periphery a guide pin or a guide screw 62, which inserts into an oblique elongate slot in the tubular intermediate section of the tubular member. 15. The height of the slot corresponds to the total distance of movement of the intermediate part. In the releasing position shown in Fig. 7, the recess 61 of the turntable 60 extends so that it coincides with the support means 59 for the flange portion 8. When the tubular intermediate part 15 is displaced relative to the housing 14 in the injection device, a rotational movement of the turntable 60 takes place. also the turntable 760 is not included in the pull-out movement and the guide stem 62 is guided in the slot in the intermediate part. As soon as this movement is started, an edge portion 2 ": the recess 61 is inserted over the flange portion 8 of the syringe body, which thus entails; the syringe body 6 is held in the inner part 15. Referring again to Fig. 1, it appears that the inner part is held in its position in Figs. -1 by means of a pawl 63, which is pivotally mounted on the housing 14 and can be activated from the outside against the action of a spring by means of a trigger 64. The pawl 63 cooperates with a projection 65 at the bottom on the outside of the inner part 16 for as long as the trigger catch 64 is not pressed in. The upper pawl 32 tiji -: _: i ~~ = shows a corresponding trigger 66, which is depressible against the action of a spring for releasing the pawl 32, which occurs when the intermediate part 15 is to be reset to inserted. This is done by hand after the injection device has carried out its work operations. In addition, the injection device has a top depth adjustment ring 67 at the top of the intermediate part 15, which is threaded on the intermediate part: and can be set in different height positions by turning. Inside the plunging depth adjustment ring 67 is located a jacket protection 68, which has the device 3 and is spring-loaded so that it strives to assume a reduced position shown in Fig. 1, but can as long as the syringe is in its inner position.

When the jacket cover 68 is depressed, an electrical circuit for closing the drive motor 17 for injection is closed, which is effected by means of a contact lead or a microswitch located in the jacket cover.

Fig. 9 shows quite schematically the structure of the electronic control unit 58 for controlling the electric drive motor 17. The adjusting knobs and 22 are for instance constituted by thumbwheel switches, which are connected to each input of an electronic sequence block 69, which can be constructed medišzoí conventional digital technology and be arranged to activate the electric driver 17 for rotation with its output shaft 23 in one or the other direction one for a predetermined time to perform the various working movements. The drive motor 17 is fed back by means of, for example, an optical encoder 70, which returns to the sect-Jess block 69 information on the number of revolutions performed by the electric motor and the work performed therein. The optical pulse sensor 70 is so constructed with a frequency sensor that the feedback signal is divided into a frequency corresponding to the number of pulses for each unit of insulin, for example one pulse per unit. Namely, the insulin dosage is prescribed in number of units, where four units correspond to a titanium 7 s1ov4ss-5 nililiters, which is usually called dashes, since the initial syringes are graded in such dashes. A buzzer 71 is also connected to the sequence block 69 and the feedback circuit, which marks the number of units that are sucked in during the charging torque, for example every fourth unit. Three switches 73, 74, 75 are connected to the input side of the sequence block 69 via time delay and adaptation circuits 72, which switches are located in the injection device so that certain operating steps were initiated by mechanical activation. A switch 73 has been previously mentioned and is located in the displacement device 34 and is closed by insertion of the unit syringe 4, more specifically determined by depressing the pin 43 of the gripping disc 12.

The second switch 74 closes when the displacement device 34 is in the rearmost position and may be a microswitch or the like. The third switch 75 has also been mentioned above and is arranged to close the circuit through the clamping means 53 when an insulin bottle is applied to the support device 50 or when the jacket cover 68 is depressed and the trigger 64 is simultaneously depressed, the electric motor 17 being activated for injection. The sequence block can, for example, be composed of a four-bit counter, the counting positions (10-15) of which are decoded with a 16-output demultiplexer. These outputs each represent a time phase in the work cycle. They are gated together and can control the motor via logic circuits. A counter is further arranged for each setting knob and is counted down to zero from the set value.

With reference to Fig. 1, Figs. 10, 11 and 12, the various steps in the use of the injection device 1 will now be described. The initial position of the injection device is shown in fig. 10, before any disposable syringe has been inserted into the device.

In this case, the tubular intermediate part 15 is in the fully inserted position and the drive lug 30 is thus in its lowest position. The displacement device 34 is in its uppermost position, thus the gripping member 37 is in the releasing position. Since the intermediate tube 15 is in its inner position, the holding device 58 is also in the releasing position, as is the support device 50, which is in its retracted position. All three switches 73, 74, 75 are in the open position. When a disposable syringe 4 is inserted into the injection device through the opening 3 until its flange portion 8 comes into abutment against the support member 59, the pin 43 in the displacement device 34 is depressed, whereby the switch 73 is closed. In this case, the drive motor 17 is started in such a direction that the drive bell 30 moves upwards and lifts the intermediate part 15, at the same time as the displacement device moves in the direction inwards, i.e. downwards. At the same time, the gripping means 37 are adjusted by the movement of the displacing device immediately to the holding position, whereby the gripping disc 12 of the disposable syringe is carried in the rearward direction and the piston 10 is displaced downwards. Fig. 1 shows this position, when the intermediate tube 15 is lifted a small distance by means of the drive lug 30 and the displacement device 34 has been moved a small distance downwards by a small distance. However, the fact that the piston is carried and that the displacement device is displaced downwards in this first movement has no function, since the charging moment has not started. This first movement has only the purpose of pulling up the intermediate part 15 and to bring the elongated clamping means and the clamping ring 54 by means of the tension spring 55. Some distance before the upper end position of the intermediate part 15 the clamping members 53 and thus also the clamping ring â € see Fig. 11), the tension and the hooking means remaining in their upward movement, while the intermediate part 15 continues the last stretch of movement. In this case, the two support elements 51 of the support device are adjusted from their retracted position to their advanced position for centering the unit syringe by co-operation with the oblique edges 57 of the clamping members 53.

During the pulling-up movement of the intermediate part 15, the holding device 58 is also adjusted from its releasing position to its holding position according to Fig. 8. In its outer position, the intermediate part is hooked by means of the pawl 32 and thus remains therein; location. In this end position, the switch 74 is activated, the control device 19 a1? tiveras to reverse the rotational rilctniiig of the drive motor 14. The switch 74 can be constituted by an end position switch which is, for example, located at the bottom of the inner part 16 and is activated by the displacement device 34, which is in this case located in its lower end position according to Fig. 11.

In this case, the displacement device 34 moves again to its forward position shown in Fig., Which is the initial position for the charging torque. This begins as the displacement device 34 moves downwards to one corresponding to the volume of insulin preset by the knob 21. A substantially circular detachable adapter 69 is mounted on the outside of the jacket cover 68 and has a round opening 70, through which an inverted insulin bottle 71 can be inserted so that the syringe tip 7 penetrates the rubber membrane at the end of the bottle. This involves the switch 75, which may or may not consist of the two metal plates 52 mentioned above and the metal top 72 of the insulin box 71 at its membrane. In practice, however, this should be replaced by a microswitch or the like due to the fact that some bottles have a non-live surface coating. In this case, the control device 19 is activated to start the drive motor 14 so that displacement? the device 34 is displaced in the upward direction to its upper end position, whereby the sulin bottle 71 is filled with an amount of air corresponding to the amount of insulin to be injected. When the displacement device 34 has reached its front position and the piston 162 has thus reached its upper position, the direction of rotation of the drive motor 17 is reversed, after which the displacement device 34 is again lowered to its lower end position, as shown in Fig. 11, filling the disposable syringe 4 whole with insulin. In the lower end position: the switch 74 is reactivated to reverse the direction of rotation of the motor 17 and to displace the piston with its displacement device 34 to a position corresponding to the preset amount of insulin, which is thus now present in the disposable syringe 4. 9 8107458-5 The charging step has now been completed, so that the insulin vial 7] and the adapter 69 are lifted off and the appropriate insertion depth is set by means of the insertion depth adjustment ring 67. Thereafter the injection device with the jacket cover 68 is applied to the body tissue 73 into which the insulin is to be injected. The jacket cover 68 is thereby pressed against the action of its spring until the front of the cutting depth adjustment ring rests against the skin. The device is now ready for insertion, which is done by depressing the trigger 64, whereby under the action of the tension springs 55 the inner part 16 together with the unit syringe 4 is advanced until the tensioning ring 54 abuts against its upper end position, which is determined by an impact portion 78, with which a portion 79 of the clamping ring cooperates (see Fig. 12).

The unit syringe with its syringe tip thus penetrates to the required depth and by closing the switch 75, which is achieved when the jacket cover 68 and the trigger 64 are simultaneously depressed, injection takes place, i.e. the drive motor 17 displaces the displacement device 34 and thus the unit syringe 4 piston 10 forward. the amount of insulin is injected into the body tissue. At the same time, the buzzer 71 can advantageously sound during the entire injection step. When the plunger 10 has reached its end position and the entire amount of insulin has been injected, the injection device is removed and placed on a support. The drive lug 30 is in this case in its lower end position, so that after release of its hooked position, the intermediate part 15 can be inserted by hand into the housing 14 by pressing, in the corresponding manner as described above fixed in the reverse direction the syringe body 6 is released from its held position. Likewise, the gripping means 37 have been adjusted to the release position, so that also the gripping disc 12 is free so that the unit syringe 4 as a whole can be removed from the injection device. According to an advantageous embodiment, the jacket protection 68 also acts as a safety catch so that insertion does not occur unintentionally. In order for insertion to take place, the trigger 64 must be pressed in and the jacket protection must be pressed in. A turntable is located in the jacket cover above the upper end of the clamping members 53 and prevents the upward movement of the clamping members as long as the jacket cover is not depressed. This locking function can only be canceled by a circular movement triggered by depressing the jacket cover, whereby an inclined jaw on the jacket cover acts on the turntable so that when the jacket cover is depressed, it causes the turntable to turn. In this case, a recess in the turntable will end up in the middle of each of the ends of the clamping members, so that the clamping members can be freely displaced upwards and insertion can take place.

As mentioned above, for the sake of simplicity, only one case of charging and injecting an insulin has been described. In principle, the injection device works in the same way when using two types of insulin. In this case, the two doses are adjusted by means of each of the two dose knobs 21, 22. Intake of air into M fl lfišå fl š h, the unit syringe takes place to a volume corresponding to the total amount of insulin, i.e. Sum »man of the amount of insulin for the two types of insulin. The two types of insulin are provided in separate insulin vials, of which the first insulin vial is placed at the top of the injection device and air is injected corresponding to the amount of insulin for the first type of insulin. Then the first bottle is removed and the second bottle is inserted. Then air is injected corresponding to the amount of insulin: for the other type of insulin in the corresponding vial. Then the set insubsw amount from the second bottle is withdrawn into the unit syringe, after which the bottle is removed and the first bottle is inserted. The amount of insulin for the first type of insulin is then introduced into the unit syringe from the first vial which is then removed and the device ready for injection in exactly the same way as in the above-described ezte fi w spot.

The invention is not limited to the embodiments described above and in the drawings show the embodiments, but can be varied within the scope of the appended claims.

For example, it is conceivable that the electronics part, i.e. the control device 19 and. the accumulator 20 is placed in a separate unit and is connected to the rest of the part via a flexible cable. It is further conceivable that the extraction of the intermediate pipe is carried out by means of the electric motor but can be done completely manually, whereby the electric motor thus only performs the displacement movement of the displacement device 34. A single screw rod is thus sufficient, the drive lug 30 also being omitted. It is also conceivable that the electric motor is of a linear type and is located in the bottom of the device with the drive shaft coaxial with the longitudinal axis of the intermediate part and the inner part.

Claims (6)

n 81071458-5 PATENT REQUIREMENTS A medical device for injection, arranged for injection using a manual syringe (4), comprising on the one hand a syringe body (6), at one end of which is located a syringe tip (7) and at the other end of which is located a flange portion (8), and on the other hand a piston part (9) with a piston (10) displaceable in the syringe body, in the movements of which medicine can be sucked into or squeezed out of the syringe body, and with a gripping member connected to the piston via a piston rod (11) (_12), the device having an opening (3), through which the syringe (4) can be at least partially inserted into a cavity (5), and an inner part (16), which is provided with a holding device (58) for The syringe body (6), characterized in that the holding device (58) is adjustable between a releasing position, in which the syringe (4) can be inserted and removed, and a holding position, in which the syringe body (6) is held against movements in its longitudinal direction relative to the inner part, and that a displacement device (34) is arranged for displacing the piston part in two directions relative to the syringe body between a front and a rear displacement position and arranged to be in a position displacing the piston part in the front displacement position and in a position to carry in the other displacement positions the piston part in both directions of displacement, that the inner part is adjustable between a rear position with the syringe tip (7) located inside said opening and an advanced position with the syringe tip projecting outside the opening in and for insertion into a body tissue (73), that the injection device at said opening (3) has support means (51, 68) for positioning at least one medicine bottle (71) during a charging moment, during which the syringe tip (7) is inserted into the medicine bottle and medicine is sucked into the syringe body, and that the device has an outer part ( 14), in which an electric motor (17) controlled by an electronic control device (19) is located, which via a transmission mechanism (18) is coupled to the displacement device for effecting its displacement movements in a sequence determined by the control device so that during the loading moment a predetermined amount of medicine is automatically sucked into the syringe body and after insertion into the body tissue during the injection moment said medicine in the predetermined amount automatically injected. Device according to claim 1, characterized in that a tubular intermediate part (15) is slidably arranged between the inner part (16) and the outer part (14) and is arranged to be pulled out relative to the inner and the atavasaws | 2 the outer part, that between the inner part and the intermediate part a spring melting member acts: (55) which is clamped during said pull-out movements of the intermediate part and strives to move the inner part with the syringe (14) a distance from a rear position to a front position and that it the outer part has a trigger melzanis: (64) with a releasable locking means (63), arranged to be raised in a locking position. the inner part in its rear position and in a releasing position allow the inner part to be moved from its rear position to its front position. Located at the top of the intermediate part (15) is a support device (50), which is arranged to 'Device according to claim 2, characterized in that; in the retracted position of the intermediate part be in a retracted position and to be in a advanced support position for centering and support of the spray hook pen (6) at its upper end in the pushed position of the intermediate part. '_ 4. A device according to claim 3, characterized in that the adjustment movement of the support device (50) is effected by the action of tensioning means (53, 54), which are included during a part of the extraction movement of the intermediate part. Device according to claim 4, characterized in that said spring mechanism (55) is attached to one of the clamping means (54). Device according to one of the preceding claims, characterized in that the displacement device (34) has a stop means (43) 0:11. hook means (37), arranged to be adjusted between the piston part (10) holding and giving position by co-operation with a guide surface (42) in the inner part (16).